Abstract
More than a decade ago it was demonstrated that neutrophil activation in plasma results in the time-dependent formation of lipid hydroperoxides through an unknown, ascorbate-sensitive pathway. It is now shown that the mechanism involves myeloperoxidase (MPO)-dependent use of multiple low-molecular-weight substrates in plasma, generating diffusible oxidant species. Addition of activated human neutrophils (from healthy subjects) to plasma (50%, vol/vol) resulted in the peroxidation of endogenous plasma lipids by catalase-, heme poison-, and ascorbate-sensitive pathways, as assessed by high-performance liquid chromatography (HPLC) with on-line electrospray ionization tandem mass spectrometric analysis of free and lipid-bound 9-HETE and 9-HODE. In marked contrast, neutrophils isolated from multiple subjects with MPO deficiency failed to initiate peroxidation of plasma lipids, but they did so after supplementation with isolated human MPO. MPO-dependent use of a low-molecular-weight substrate(s) in plasma for initiating lipid peroxidation was illustrated by demonstrating that the filtrate of plasma (10-kd MWt cutoff) could supply components required for low-density lipoprotein lipid peroxidation in the presence of MPO and H(2)O(2). Subsequent HPLC fractionation of plasma filtrate (10-kd MWt cutoff) by sequential column chromatography identified nitrite, tyrosine, and thiocyanate as major endogenous substrates and 17 beta-estradiol as a novel minor endogenous substrate in plasma for MPO in promoting peroxidation of plasma lipids. These results strongly suggest that the MPO-H(2)O(2) system of human leukocytes serves as a physiological mechanism for initiating lipid peroxidation in vivo.
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